Abstract

Background

Allergen exposure leads to allergen sensitization in susceptible individuals and this might influence allergic rhinitis (AR) phenotype expression. We investigated whether sensitization patterns vary in a country with subtropical and tropical regions and if sensitization patterns relate to AR phenotypes or age.

Methods

In a national, cross-sectional study AR patients (2-70 y) seen by allergists underwent blinded skin prick testing with a panel of 18 allergens and completed a validated questionnaire on AR phenotypes.

Conclusions

In a country with (sub)tropical climate zones SPT sensitization patterns varied according to climatological zones; they were different from those found in Europe, HDM sensitization far outweighing pollen allergies and Bermuda grass and Ash pollen being the main grass and tree allergens, respectively. Pollen sensitization was related to SAR, but no relation between sensitization and intermittent-persistent AR or AR severity could be detected. Sensitization patterns vary with age (child HDM, adult pollen). Clinical implications of our findings are dual: only a few allergens –some region specific- cover the majority of sensitizations in (sub)tropical climate zones. This is of major importance for allergen manufacturers and immunotherapy planning. Secondly, patient selection in clinical trials should be based on the intermittent-persistent and severity classifications, rather than on the seasonal-perennial AR subtypes, especially when conducted in (sub)tropical countries.

Keywords

Background

Allergic rhinitis has been of increasing importance over recent decades, because of its rise in prevalence [1] and linked co-morbidities, including asthma and chronic upper respiratory tract infections [2]. Detection of the sensitizing allergen allows for a more complete therapy, as allergen avoidance should form an integral part of the treatment. Moreover, recognition of the sensitizing allergen is essential to the adequate preparation of specific allergen immunotherapy, an approach directed at the cause of the disease [23, 5].

This manuscript explores allergen sensitization patterns in patients with AR in a country in which several climate zones can be differentiated, varying from sub-tropic to tropic, and thus leading to a sensitization pattern different from that found in Europe and the United States (US).

Mexico is situated between latitude 14.32° and 32.46° north of the Equator and as such falls partly in the subtropics and partly in the tropics. A striking humidity-gradient can be detected from the hot, dry North through the semi-dry temperate center of the country, to the humid south-eastern tropical part. These characteristics together with the varying altitude divide the country according to the National Geographic Institute (Instituto Nacional de Estadística y Geografía, INEGI) in six climate zones [6]. The ISAAC studies found a prevalence of rhinitis in Mexican children between 11.6-15.4% and asthma-like symptoms between 8.5-15.6% [1, 7, 8]. Allergic rhinitis risk factors and economic impact have been documented in that country [9, 10]. In the present article we describe how allergen sensitization is distributed over the whole country and how it is linked to allergic rhinitis phenotypes, age and climate zones. Detailed AR phenotype data will be presented in a separate manuscript [11].

Methods

This study was carried out as a prospective, cross-sectional, nationwide, multicenter study.

Climate zones and patient selection

Twenty-six study centers were selected, distributed over the six climate zones across Mexico. The division of the climate zones was according to the official INEGI assignation (http://www.inegi.org.mx/geo/contenidos/recnat/clima/default.aspx and related charts), see Figure 1. Consecutive patients (2-70 years) with rhinitis symptoms were pre-selected if they had symptoms compatible with allergic rhinitis, e.g. symptoms exacerbating during a specific season and/or on exposure to certain allergen(s). After testing positively with the routine SPT of the center, subjects were asked to participate in the study. Thus, recruited patients were those routinely diagnosed as having allergic rhinitis by the allergists. The patients (and for the pediatric patients the parents/legal guardian) gave written informed consent. The study was evaluated and approved by an independent Ethics Committee. Subjects were excluded if they had any contra-indication for undergoing skin prick testing or if they had had immunotherapy within the previous five years. The elimination criteria were an invalid study SPT or if the criteria for the study diagnosis of rhinitis –see below- were not met.

Figure 1

Center distribution and allergen sensitivity throughout the Mexican republic. Location of the centers from which allergic rhinitis subjects were recruited, and their distribution over the six different climate zones in Mexico. The area from which subjects from the tropical zone were recruited is broad, reflected by the large dot.

Allergic rhinitis symptom phenotypes

Eligible subjects were invited to fill out a validated questionnaire on rhino-conjunctivitis symptoms [12], which allows classification of allergic rhinitis (AR) as seasonal-perennial (SAR-PAR) on one hand and according to the ARIA classification as intermittent (IAR) versus persistent (PER) and mild versus moderate-severe on the other hand [13]. For children below 12 years, the carer completed the questionnaire. A subject was defined as suffering from rhinitis if at least two of the four enquired rhinitis symptoms (congestion, rhinorrhea, pruritus, sneezing) were positive and conjunctivitis if one of three conjunctivitis symptoms (erythema, pruritus, lacrimation) were present. AR was classified according to the questionnaire data as completed by the patients and following the ARIA guidelines as intermittent (symptoms appearing <4 days per week or <4 wks.) or persistent.

Skin prick testing

Once the presence of rhinitis/rhinoconjunctivitis was confirmed, subjects underwent the study skin prick test with a blinded set of sixteen of the most common [14] allergens in Mexico (Dermatophagoides mixstand, catstand, Poa pratensisstand, Phleum pratensestand, Cynodon dactylonstand, Ambrosiastand, profilin, peach: ALK-Abelló, Madrid, Spain,stand = standardized; Blomia tropicalisstand: Biocen, La Havana, Cuba; Blatella germanica/Periplaneta americana mix, Fraxinus excelsior, Quercus ilex, Prosopis, Cupressus sempervirens, Chenopodium album, Heliantus, Alternaria alternata, Aspergillus fumigatus: Allerquim, Mexicocity, Mexico). Dermatophagoides mix is a 50-50% mix of Dermatophagoides pteronyssinus and farinae. The English names of the allergens are: house dust mite, cat, Kentucky bluegrass, Timothy, Bermuda grass, Ragweed, Blomia, cockroach mix, Ash, oak, mesquite, cypress, lamb’s quarter, sunflower, Alternaria, Aspergillus. Blinding of SPT extracts was carried out at a central site, not involved in patient recruitment. Technicians applying the SPT, physicians and patients were all blinded to the content of the vials, as was the statistical team. The skin testing was done in duplicate. With an ALK-lancet (ALK-Abelló, Madrid, Spain), the skin was penetrated, passing through each drop of allergen extract at 90°. Personnel that applied the test in the centers passed a previously described proficiency test [15] (coefficient of variation <20%) before recruiting the first patient. The results were read at 15 min by drawing around the perimeter of the wheal with a ballpoint pen, placing transparent tape against the skin and transferring the prints to the data collection sheet. A test was considered positive if the wheal surface ≥ 5 mm [2] and if it met the criteria of a valid test (negative control <5 mm2, positive control ≥5 mm2) [16].

Data analysis

Using all the above data, we analyzed SPT positivity allergen-clusters (‘grasses’, ‘trees’, etc.) and individual allergens nationally. With house dust mite (HDM) we refer to only Dermatophagoides pteronyssinus and farina e, not Blomia. Likewise, the frequency distribution of skin test sensitivity to certain allergen-clusters and its relation to the following factors was examined: rhinitis symptom phenotypes, age and climate zones.

Statistical analysis

The programmed sample was 90 patients per climate zone. Sample size calculation [17] was based on an estimated population size of 500,000 AR patients (500 practicing allergists seeing approximately 1,000 allergic rhinitis patients/year), an estimated frequency of SPT positivity for HDM of 55% with a confidence level or 95% and a confidence interval of 10% (standard error 0.05). For the allergens with an estimated frequency of SPT positivity close to 25% (or 75%), 73 patients per climate zone would have been sufficient to achieve the identical confidence interval. Pearson’s χ squared tests were used to compare the frequency of the SPT positivity between the climate zones, the age-groups and the phenotypes of rhinitis (if necessary Yates’ correction was applied). Differences in wheal size were compared with the Mann-Whitney rank test.

Results

Six hundred twenty-eight patients were recruited. 91/628 patients were excluded because of a too large negative control (83) or other SPT errors. Nationwide a total of 529 patients with skin prick test positivity and rhinitis and/or conjunctivitis symptoms were included (aged 2-68 years, mean age 21.8 years, 48.2% male). Their distribution over the six climate zones can be seen in Figure 1. In the tropical zone 6 there were more subjects in the 2-11 year age-group, see Table 1.

Table 1

Distribution of subjects over the tropical and subtropical zones

Subtropics (Zones 1-5)

Tropics (Zone 6)

Total

457

68

Gender

Male

216 (48%)

36 (53%)

Female

239 (52%)

32 (47%)

Age

2 to 11 years

111 (24%)

46 (68%)

12 to 17 years

78 (17%)

13 (19%)

18+ years

268 (58%)

9 (13%)

Frequency of skin prick test positivity Nationwide

Nationally, SPT positivity was mostly found for mites (proportion 0.599, 95% confidence interval (CI) 0.55-0.64), followed by tree pollens (0.442, 95% CI: 0.40-0.48), grass pollens (0.338, 95% CI: 0.30-0.38), weed pollens (0.265, 95% CI: 0.23-0.30) and finally molds (0.113, 95% CI: 0.09-0.14). As such the frequency of SPT positivity for individual allergens could be divided into three groups (Figure 2). Firstly, the most frequent allergen, Dermatophagoides mix (pteronyssinus + farinae), with a positive SPT in more than 56% of the patients. Secondly, the ‘frequent’ allergens, with percentages of SPT positivity between 20-26% -cat allergen is in this group- and thirdly, the less frequent ones (SPT positivity from 6 to 14%). As for the mean wheal size in SPT positive patients, there was large variation. The largest wheals were produced by Cynodon dactylon, followed by profilin, peach and Aspergillus. Dermatophagoides mix produced a mean wheal size in the middle range (Additional file 1: Figure S1). As such, the most frequent allergen was not the one producing the largest wheals.

Figure 2

Nationwide skin prick test (SPT) positivity for all tested allergens. Percentage of skin prick test positivity per allergen of all included subjects, nationwide

Frequency of skin prick test positivity and wheal sizes: age groups

Figure 3 shows the skin prick test positivity according to the age-groups. Adults (age 18+ years) had more SPT positivity for pollens of trees (p < 0.0001) and weeds (p < 0.0005), as compared to the younger age groups. However, SPT positivity for mites was statistical significantly more frequent in the 2-11 and 12-17 year age-groups, as compared to the adult subjects. These differences were maintained even if only subjects from the subtropic zones 1-5 were taken into account (HDM sensitization 2-11 years: 68%; 12-17 years 71%; 18 + years 46%; p < 0.0005 for comparisons of children-adults and adolescents-adults). For subjects from the tropical zone 6 the same trend could be seen, but because of small numbers the differences did not reach statistical significance (HDM sensitization 91%, 85% and 67%, respectively for children-adolescents-adults). We also compared the mean wheal size of SPT positive subjects between age-groups (see Additional file 2: Table S1 and S2). Mean wheal size of the 2-11 year age-group were generally smaller than the other two age-groups, reaching statistical significance for several allergens. In general there was no difference between the 12-17 year and 18+ year subjects, with even larger wheals in the adolescents as compared to the adult subjects for both mites (Dermatophagoides: p = 0.023; blomia: p = 0.026).

There was no difference between intermittent (IAR) and persistent (PER) allergic rhinitis in the frequency of SPT positivity for any allergen tested, except for trees. Patients with PER had more frequent SPT positivity to trees as compared to patients with IAR (p = 0.012, Figure 4). For mild versus moderate-severe AR no difference could be found for any allergen. Comparing SAR with PAR patients, grass, tree and cat SPT positivity was more frequent in SAR patients (Figure 5).

As for wheal size comparing IAR versus PER and mild versus moderate-severe patients, no differences could be found, with one exception: PER patients presented a larger wheal surface for Alternaria. PAR patients had larger wheals than SAR patients for Prosopis, Chenopodium, cockroach mix and profilin.

Frequency of skin prick test positivity per climate zone

Statistically significant differences of positive SPT in a specific zone as compared to the rest of the country are documented in Figure 6 and Table 2 compares sensitization between the climate zones. In the dry-hot and the (sub)humid zones HDM was the most frequent allergen, followed by trees. In the dry North of Mexico sensitization to molds and weeds (and consequently also to pan-allergens such as peach –rich in lipid transfer protein- and profilin) are high. In the tropical zone 6, warm with rainfall all year long, almost all patients are sensitized to HDM, leaving only 20% of the patients with some additional pollen allergy. However, for the patients in the middle of the country, living in the agricultural zone with a (semi)-dry temperate climate, both tree and grass pollen sensitization is more common than HDM sensitization. Cockroach sensitization is important all over the country.

Figure 6

Skin prick test positivity according to climate zones. Percentage of skin prick test positivity per allergen cluster according to the six climate zones.

*Pearson X-square tests were used, if necessary with Yates’ correction.

Proportion of skin prick test positivity (SPT (+)) in each climate zone as opposed to the rest of the country Normal font = % of SPT (+) is lower than country mean, bold font = % of SPT (+) is higher than country mean.

Discussion

This article’s main accomplishments are four. Firstly, it delivers a detailed description of allergen sensitization patterns in a (sub)tropical country, different from those found in Europe and the US. Secondly, it demonstrates that in this setting allergic sensitization is not linked to a specific AR symptom phenotype, with the exception of SAR in which patients had slightly more tree and grass pollen positivity. Thirdly, it reveals that in this study population children have a higher rate of house dust mite sensitization and that pollen sensitization is more frequent in adult patients. Finally, it shows allergen sensitization profiles can vary within one country. Thus, although allergen sensitization did not vary with AR phenotypes, it is linked to climate zones, with grass and tree pollen being the most common sensitizing aeroallergen in the sub-tropical, temperate mid-country agricultural region, as opposed to Dermatophagoides being by far the most important sensitizing allergen in the rest of the country. Nationwide Dermatophagoides sensitization duplicated the sensitization prevalence of the second most frequent allergens: the storage mite Blomia tropicalis, cat, cockroach and pollen of Bermuda grass, ash (Fraxinus excelsior) and oak (Quercus ilex). In the tropical zone HDM allergy was present in approximately 90% of the subjects, consistent with previously published retrospective findings [14].

Many studies have reported sensitization prevalence using skin prick testing. However, the large epidemiologic studies have often encountered problems in standardizing the SPT methodology, resulting in unexplainable differences found in centers within the same region. Moreover, in both large epidemiological SPT studies, the US National Health and Nutrition Examination Survey (NHANES) II and III [18] and the European Community Respiratory Health Survey I [19] investigators’ bias had not been excluded as the skin testing panel was not blinded. With our study design we overcame these pitfalls applying skin prick testing with a blinded panel of allergens, using the same batch, the same device and a standardized method in the centers. The SPT technique was submitted to quality control, as all personnel involved passed a proficiency SPT test before study-start [15]. Also, different from NHANES III and ECRHS-I, our study population was a selected one: patients visiting allergy centers with rhinitis symptoms and a positive routine SPT. Finally, apart from skin testing, the patients also completed a validated allergic rhinitis questionnaire allowing us to categorize the AR symptom phenotype of each patient according to the seasonal-perennial and the ARIA classifications. Consequently, AR phenotypes could be linked to sensitization profiles.

This is the first epidemiologic study to show that in a (sub)tropical region there is no specific relationship between any of the ARIA symptom phenotypes and allergen sensitization. For the old SAR-PAR classification there was a weak association between SAR and certain pollen sensitizations: SAR subjects have 11.5% more tree and 13.3% more grass pollen SPT-positivity. Although there have been epidemiological studies before [20–24] on AR and allergen sensitization, these studies did not report on the relationship between AR symptom phenotypes and specific sensitizations patterns.

Comparing the sensitization profile of AR patients in a (sub)tropical country to those found in SPT positive subjects in Europe (ECRHQ), the frequency of HDM sensitization falls in the same range, that of grass pollen is lower than in Europe, but tree and ragweed pollen sensitization is higher in our subjects [19]. Moreover, the main allergenic grass pollen in Europe was Timothy and is Bermuda grass pollen in our patients. More recently, skin test sensitization in a market in Belgium showed a similar profile as the ECRHQ, but with lower HDM sensitization in this Northern European country [25].

Of all SPT positive subjects in the US epidemiologic census, NHANES-III, SPT positivity to HDM, perennial rye pollen, short ragweed pollen or Blatella germanica were all close to 50%. In our selected AR patient population HDM sensitization was higher, but cockroach, grass and ragweed pollen sensitization much lower than in this US census. However, as the potency of the US extracts used in NHANES-III was higher than the potency of the European extracts we used [26, 27] and the criterion for a positive test was less stringent in NHANES-III, sensitization frequencies can only be compared relatively.

Apart from Dermatophagoides spp. we also tested the storage mite, Blomia tropicalis, reported in some subtropical climates to be of importance [28]. Although 25% of our AR subjects had SPT positivity for B tropicalis, 93.7% of them were also sensitized to Dermatophagoides, leaving only 6.3% of the HDM sensitized subjects, corresponding to 3.8% of the whole population, with specific B tropicalis sensitization. Chinese investigators found similar numbers. Analyzing subjects with allergic rhinitis and/or asthma with SPT to HDM and storage mites (SM) –including Blomia tropicalis- 82% had SPT positivity to HDM and% to SM, but only 1.5% of the patients were sensitized to SM without HDM sensitization, as judged by SPT, and 14% according to specific IgE [29]. In a non-selected population of adults in Canary Islands, Spain, SPT positivity for Blomia was as high as 37.2% among those patients with rhinitis symptoms (95% CI 28.1-47.6%) and even 50% among those with asthma (95% CI 26.8-73.2%) [28].

Our observation of increased pollen sensitization in the adult age-group is in agreement with those reported by Asero et al. with respect to the age of onset of ragweed pollen sensitization, situated in the third decade of life [30].

The sensitization pattern partly agrees with the aerobiology of Mexico [31] that shows high concentrations of ash pollen in winter months (November-February), followed by oak and Bermuda grass pollen end-winter into spring. Ash is a species that grows easily under the climate conditions present in a subtropical country. In Mexico City Fraxinus is even more abundant, because it is the main tree used in re-forestation projects. Interestingly, sensitization to cypress pollen is not as high as would be expected from the abundant pollen quantity in the air. Worldwide, there is currently a clear tendency towards an increase in atmospheric pollen, including highly allergenic taxa. Experimental studies in a multinational study across Europe suggest that these trends cannot solely be attributed to rising temperatures, but might also be influenced by the increase of the greenhouse gas CO2 [32], an observation definitely of importance in the three major cities of Mexico where pollution is an issue.

In conclusion, in patients with AR symptoms living in the (sub)tropics, SPT sensitization patterns are different from those found in Europe and US. Sensitization patterns are not clearly linked to any specific AR symptom phenotype, but they do vary according to age (child-adolescent vs. adult) and climate zone. Hence, in our population sensitization to a certain allergen is not linked to either intermittent or persistent AR, or to mild or moderate-severe AR.

IRB approval

This study was approved by Comité de Ética del Instituto Jalisciense de investigación Clínica SA de CV on the 12th of January 2010.

Abbreviations

AR:

Allergic rhinitis

ARIA:

Allergic rhinitis and its impact on asthma

ECRHS-I:

European Community Respiratory Health Survey I

HDM:

House dust mite

INEGI:

Instituto Nacional de Estadística y Geografía (according to its initials in Spanish)

IAR:

Intermittent allergic rhinitis

NHANES:

National Health and Nutrition Examination Survey

PER:

Persistent allergic rhinitis

PAR:

Perennial allergic rhinitis

SAR:

Seasonal allergic rhinitis

SM:

Storage mite

SPT:

Skin prick test

US:

United States of North America.

Declarations

Funding

This study was carried without any specific funding. Allerquim and BIOCEN donated some of the extracts. ALK-Abelló/Diemsa supported with extract distribution to the centers. Colegio Mexicano de Inmunología Clínica y Alergia (CMICA) supported with logistics.

Take home message

Sensitisation of Mexicans with allergic rhinitis (AR) 60% Dermatophagoides and related to age and climate, not to ARIA classification.

Competing interests

The authors declare that they have no competing interests.

Authors’ contributions

DLL developed the study-design, coordinated the data recollection and analysis and was in charge of the publication writing, submission and review process. HD was involved with the design of the study, the data analysis, review and approval of publication content. KSH designed the randomization and chaired the statistical analysis. He is author of several figures and he contributed to the review and approval of statistical data. AM discussed the design of the study –statistical part- and coordinated the statistical data analysis. RM has had a definite impact on the study design, gave the global ideas for the data analysis, corrected the publication draft and approved its final content. AAC, MAM, MBB, RCJ, MLCP, MACR, RGA, CYGC, DAGI, RGM, DHC, FJLZ, JALP, JJMC, NMJ, MAMA, AMH, AMM, DNL, LJPN, ERS, NRP and PGRO have participated in the details in design per center, data collection per center, data-correction and review and approval of the Mexican data in the publication. All authors read and approved the final manuscript.

Copyright

This article is published under license to BioMed Central Ltd. This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly credited. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated.